CN110576549A

CN110576549A - i-shaped part press forming die

Info

Publication number: CN110576549A
Application number: CN201910912934.5A
Authority: CN
Inventors: 杨文光; 孙克原; 靳予; 陈佩民; 王孝刚; 徐辉; 夏炎
Original assignee: Nanjing Runte New Material Co Ltd; Nanjing Kent Composites Ltd By Share Ltd
Current assignee: Nanjing Runte New Material Co Ltd; Nanjing Kent Composites Ltd By Share Ltd
Priority date: 2019-09-25
Filing date: 2019-09-25
Publication date: 2019-12-17

Abstract

The technology provides an I-shaped part press forming die, the I-shaped part can be press-formed by using the die, machining is not needed, the generation efficiency is high, and waste of raw materials is avoided; the outer diameter of the intermediate shaft is f, and the height of the intermediate shaft is e; the diameters of the upper wing plate and the lower wing plate are both d, and the heights of the upper wing plate and the lower wing plate are both g; d is more than f; the molding die includes: the die comprises an outer die with the inner diameter of d, an upper pressure plate, a lower pressure plate, a half die, an upper die, a lower die, an upper pressure plate, a half die and a lower die, wherein the outer diameter of the outer die is d, the inner diameter of the outer die is f, the upper pressure plate, the lower pressure plate and the lower pressure plate are arranged in the outer die at intervals up and down, the upper die can move up and down and extend into the upper pressure plate, the lower die can move up and down and extend into the lower pressure plate, and the outer die, the upper die, the.

Description

I-shaped part press forming die

Technical Field

This patent relates to a press-forming die for pressing a powder, such as polytetrafluoroethylene powder, into a part having a predetermined shape.

Background

An I-shaped component generally comprising a central shaft, an upper wing plate and a lower wing plate; the outer diameter of the intermediate shaft is f, and the height of the intermediate shaft is e; the diameters of the upper wing plate and the lower wing plate are both d, and the heights of the upper wing plate and the lower wing plate are both g; d is greater than f. For the I-shaped part, the I-shaped part is generally difficult to be formed by one-step pressing, the forming method generally comprises two processes, wherein the first process is to press raw materials such as powder and the like into a cylinder, and the second process is to machine the pressed cylinder, namely to mill off the redundant part between the upper wing plate and the lower wing plate, the diameter of which is larger than f, so as to obtain the I-shaped part.

The processing method has long working time, and wastes a large amount of materials because the redundant part is milled, especially when the difference between the outer diameter f of the middle shaft and the diameter d of the upper wing plate and the lower wing plate is large or the height e of the middle shaft is large.

Disclosure of Invention

The technical purpose is to provide an I-shaped part press forming die, which can be used for press forming of I-shaped parts, does not need machining, has high generation efficiency and does not cause waste of raw materials.

The I-shaped part is pressed and formed by the die and comprises an intermediate shaft, an upper wing plate and a lower wing plate; the outer diameter of the intermediate shaft is f, and the height of the intermediate shaft is e; the diameters of the upper wing plate and the lower wing plate are both d, and the heights of the upper wing plate and the lower wing plate are both g; d is more than f; the molding die includes: the die comprises an outer die with the inner diameter of d, an upper pressure plate, a lower pressure plate, a half die, an upper die, a lower die, an upper pressure plate, a half die and a lower die, wherein the outer diameter of the outer die is d, the inner diameter of the outer die is f, the upper pressure plate, the lower pressure plate and the lower pressure plate are arranged in the outer die at intervals up and down, the upper die can move up and down and extend into the upper pressure plate, the lower die can move up and down and extend into the lower pressure plate, and the outer die, the upper die, the.

The beneficial effect of this patent: the forming method for pressing the I-shaped part by using the forming die comprises the following steps:

1) filling the die cavity with raw materials for pressing the I-shaped part;

2) When the outer die, the upper pressure plate and the lower pressure plate are all kept still, the upper die moves downwards, and meanwhile, the lower die moves upwards until the lower surface of the upper die is flush with the lower surface of the upper pressure plate and the upper surface of the lower die is flush with the upper surface of the lower pressure plate;

3) And when the outer die is kept still, the upper die and the upper pressure plate move downwards together, and the lower die and the lower pressure plate move upwards together at the same time until the size required by the I-shaped part is reached.

The upper die capable of moving up and down moves downwards and the lower die capable of moving up and down moves upwards, so that materials below the lower surface of the upper die and materials above the upper surface of the lower die can be extruded for the first time to the middle shaft of the I-shaped part; the upper die and the upper pressure plate which can move up and down move downwards together, the lower die and the lower pressure plate which can move up and down move upwards together, materials below the lower surface of the upper pressure plate can be extruded to the upper wing plate of the I-shaped part, materials above the upper surface of the lower pressure plate are extruded to the lower wing plate of the I-shaped part, materials below the lower surface of the upper die and materials above the upper surface of the lower die are extruded for the second time to the middle shaft of the I-shaped part, therefore, the density of the I-shaped part which is formed by pressing is basically consistent, particularly, the density of the upper wing plate and the lower wing plate is basically consistent with the density of the middle shaft, and the I-shaped part is uniform in texture. The forming die is used for pressing the I-shaped part, so that the traditional step of machining the cylindrical pressed piece to obtain the I-shaped part is omitted, the working time is saved, and the waste of raw materials is avoided.

The half mould belongs to the prior art and consists of two symmetrical semi-annular semi-ring moulds.

Pressing the I-shaped part by using the forming die, wherein the step 4) is carried out after the step 3), the upper die, the upper pressure plate, the half die, the lower die and the lower pressure plate move upwards relative to the outer die together, so that the I-shaped part is exposed out of the outer die; the upper die and the upper pressure plate are taken down, then the half die and the I-shaped part are taken down at the same time, then the half die is taken down to obtain the I-shaped part, or the half die is taken down and then the I-shaped part is taken down. The method for removing the half mould is generally to remove two half ring moulds respectively by moving along the radial direction of the half mould respectively.

In the press forming die for the I-shaped part, the I-shaped part is provided with a core hole which penetrates through the middle shaft, the upper wing plate and the lower wing plate and is communicated up and down and has a diameter of h; the forming die also comprises a core die with the diameter of h, and the upper end and the lower end of the core die respectively extend into the holes formed in the upper die and the lower die.

Thus, the pressed I-shaped part has a through core hole in the middle.

Pressing the I-shaped part with the core hole in the middle by using the forming die, wherein the step 4) is carried out after the step 3), and the upper die, the upper pressure plate, the half die, the lower pressure plate and the core die move upwards relative to the outer die together, so that the I-shaped part is exposed out of the outer die; the upper die and the upper pressure plate are taken down, then the half die and the I-shaped part are taken down at the same time, then the half die is taken down to obtain the I-shaped part, or the half die is taken down and then the I-shaped part is taken down. In this case, since the core mold is provided in the molding die, when the upper mold, the upper platen, and the i-shaped part are to be removed, the upper mold, the upper platen, and the i-shaped part are generally moved upward along the axial direction of the core mold, and the upper mold, the upper platen, and the i-shaped part are removed from the upper end of the core mold.

If the compression ratio of the raw material compression molding of the I-shaped part compression molding die is x, x is more than 1,

the distance between the lower surface of the upper die and the lower surface of the upper pressure plate is e (x-1)/2, and the distance between the upper surface of the lower die and the upper surface of the lower pressure plate is e (x-1)/2;

The distance between the lower surface of the upper pressure plate and the upper surface of the half die is g (x-1), and the distance between the upper surface of the lower pressure plate and the lower surface of the half die is g (x-1).

For step 2), when the outer die, the upper platen and the lower platen are kept still, the downward movement distance of the upper die is e (x-1)/2, and the upward movement distance of the lower die is e (x-1)/2, at the moment, the lower surface of the upper die is flush with the lower surface of the upper platen, and the upper surface of the lower die is flush with the upper surface of the lower platen;

And (3) pressing the I-shaped part by using the forming die, wherein when the outer die is kept still, the upper die and the upper pressure plate move downwards together by a distance g (x-1), and the lower die and the lower pressure plate move upwards together by a distance g (x-1), namely the required size of the I-shaped part is achieved.

therefore, the uniformity of the internal structure of the I-shaped part formed by pressing can be further ensured.

In the I-shaped part press forming die, the periphery of the lower end of the upper die is stepped, and the shaft neck with the smaller diameter at the lower end of the upper die extends into the upper pressure plate; the periphery of the upper end of the lower die is stepped, and a shaft neck with a smaller diameter at the upper end of the lower die extends into the lower pressure plate;

The distance between the step surface of the upper die and the upper surface of the upper pressure plate is e (x-1)/2, and the distance between the step surface of the lower die and the lower surface of the lower pressure plate is e (x-1)/2.

pressing the I-shaped part by using the forming die, and for the step 2), when the outer die, the upper pressure plate and the lower pressure plate are kept still and the upper die moves downwards until the lower surface of the upper die is flush with the lower surface of the upper pressure plate, the step surface of the upper die is contacted with the upper surface of the upper pressure plate; when the lower die moves upwards to the position where the upper surface of the lower die is flush with the upper surface of the lower pressing disc, the step surface of the lower die is in contact with the lower surface of the lower pressing disc.

the forming die of this kind of structure guarantees more easily before last mould step face and last pressure disk upper surface contact, goes up the distance of mould downstream to and before lower mould step face and lower pressure disk lower surface contact, the distance of lower mould rebound, go up pressure disk upper surface and lower pressure disk lower surface simultaneously with last mould step face and lower mould step face contact after, lower mould rebound can promote down the pressure disk rebound, go up the mould rebound and can promote the pressure disk rebound, the structure has further been simplified.

When the forming die with the structure is placed on a press for use, an upper pressure rod which moves up and down of the press is connected with an upper die, a lower mandril which moves up and down of the press is connected with a lower die, and the upper die can be driven to move downwards by the upper pressure rod connected with the upper end of the upper die when an outer die, an upper pressure plate and a lower pressure plate are all kept still; the lower die can be driven to move upwards through the lower ejector rod connected with the lower end of the lower die;

When the upper die moves downwards until the step surface of the upper die is contacted with the upper surface of the upper pressure plate and the lower die moves upwards until the step surface of the lower die is contacted with the lower surface of the lower pressure plate, the upper die and the upper pressure plate can be driven to move downwards together through the upper pressure rod when the outer die is kept still; the lower die and the lower pressing plate can be driven to move upwards together through the lower ejector rod.

Like this, this forming die only needs an upper pressure bar can promote to go up the mould or go up the mould and go up the pressure disk and remove, only needs ejector pin can promote the lower mould or lower mould and the pressure disk removes down, and the structure is simpler.

The I-shaped part press forming die is provided with a plurality of support rings which are sequentially nested; the upper end of the inner periphery of each support ring is provided with a ring groove, and the support ring with the smaller diameter is positioned in the ring groove on the support ring with the larger diameter; the lower pressure plate is positioned in the annular groove of the support ring with the smallest diameter; the journal with larger diameter at the lower end of the lower die penetrates through the support ring with the smallest diameter; the support ring with the largest diameter is arranged on the die carrier.

Therefore, the forming device can press I-shaped parts with different outer diameters and has certain universality and interchangeability. For example, for an I-shaped part with a larger diameter d, the outer diameters of the corresponding outer die, half die, lower pressure plate and upper pressure plate all need to be replaced by larger ones, and at this time, the support ring with the smaller diameter is only needed to be removed, and the lower pressure plate with the larger size is placed in the ring groove on the support ring with the larger diameter.

drawings

FIG. 1 is a schematic view of a molding die and the like at the time of first filling;

FIG. 2 is a schematic view of a portion of the forming die during a second fill;

FIG. 3 is a schematic view of a portion of a mold during a third fill;

fig. 4 is a schematic view of a molding die and the like before first pressing;

Fig. 5 is a schematic view of a molding die and the like before the second pressing;

fig. 6 is a schematic view of a forming die and the like after completion of pressing (at the time of pressure holding);

FIG. 7 is a schematic view of a molding die or the like at the time of demolding;

FIG. 8 is a schematic view of a press formed I-shaped part.

In the figure, an I-shaped part 1, a raw material 10, an intermediate shaft 11, an upper wing plate 12, a lower wing plate 13,

the outer die 2, the upper pressing plate 3, the lower pressing plate 4, the half die 5, the upper die 6, the upper die journal 61, the lower die 7, the lower die journal 71, the core die 8 and the die cavity 9

The device comprises a press 20, a die carrier 21, a support ring 22, a top block 23, a cushion block 24, a workbench 25, an upper pressure rod 26 and a lower top rod 27.

Detailed Description

Referring to fig. 8, an i-shaped part 1 to be press-molded using polytetrafluoroethylene powder or the like includes an intermediate shaft 11, an upper wing plate 12, and a lower wing plate 13; the i-shaped part has a vertically through core hole 14 of diameter h. The outer diameter of the intermediate shaft is f, and the height of the intermediate shaft is e; the diameters of the upper wing plate and the lower wing plate are both d, and the heights of the upper wing plate and the lower wing plate are both g; d is greater than f.

For pressing the i-shaped part, see fig. 4, 6, 8, a forming die is used comprising: the die comprises an outer die 2 with the inner diameter of d, an upper pressure plate 3, a lower pressure plate 4, a half die 5 (consisting of two semi-ring dies), an upper die 6, a lower die 7 and a core die 8 with the diameter of h, wherein the outer diameter of the upper die is d, and the inner diameter of the lower die is f.

the center of the upper die 6 and the center of the lower die 7 are both provided with through holes with the diameter of h, and the upper end and the lower end of the core die respectively extend into the through holes on the upper die and the lower die. The periphery of the lower end of the upper die is stepped, and the upper pressure plate 3 is sleeved on an upper die journal 61 with smaller diameter at the lower end of the upper die; the periphery of the upper end of the lower die 7 is stepped, and the lower pressing disc is sleeved on a lower die shaft neck 71 with a smaller diameter at the upper end of the lower die; the outer diameters of the upper die journal 61 and the lower die journal 71 are f.

The upper pressing plate, the half die and the lower pressing plate are arranged in the outer die at intervals up and down, and the outer die, the upper pressing plate, the half die, the lower pressing plate, the lower die and the core die enclose a die cavity 9.

In order to place the forming tool on the press 20, a tool carrier 21 is arranged on a table 25 of the press, on which carrier several support rings 22 are arranged. Above the upper die 6 is an upper press ram 26 of the press, which is connected to the upper die. A cushion block 24 is provided between the top block 23 on the table and the core mold 8 and the lower platen 4, and below the top block 23 is a lower lift pin 27 of a press for lifting up the top block 23.

The support rings 22 are nested in sequence, that is, the upper end of the inner periphery of each support ring is provided with a ring groove, and the support ring with the smaller diameter is positioned in the ring groove on the support ring with the larger diameter. The lower pressure plate 4 is positioned in the ring groove of the support ring with the smallest diameter; the journal with larger diameter at the lower end of the lower die penetrates through the support ring with the smallest diameter; the support ring with the largest diameter is arranged on the die carrier.

The fly-pressing forming method for pressing the I-shaped part by using the forming die by adopting the raw materials such as polytetrafluoroethylene powder and the like with the compression ratio of x comprises the following steps:

1) And filling (filling the die cavity with raw materials for pressing the I-shaped part), wherein the specific process is as follows.

First-time filling: referring to fig. 1, the die holder is fixed on the workbench, the support rings are nested in sequence, the support ring with the largest diameter is fixed on the die holder, the lower press disc is placed in the ring groove of the support ring with the smallest diameter, and the lower surface of the outer die positioned on the periphery of the lower press disc is in contact with the upper surface of the support ring with the smallest diameter. The lower die shaft neck with the smaller diameter of the lower die extends into the lower pressure plate, and the outer diameter of the shaft neck with the larger diameter at the lower end of the lower die is smaller than the inner diameter of the support ring with the smallest diameter. The distance t1= e (x-1)/2 from the lower die step surface to the lower surface of the lower platen. The distance between the lower die upper surface and the lower platen upper surface u1= t 1. The core die penetrates through the lower die, the core die and the lower die are jointly positioned on the cushion block, and the lower end of the cushion block is in contact with the ejector block.

a raw material 10 such as polytetrafluoroethylene powder is first charged into a space surrounded by an outer die, a lower platen, a lower die, a core die, and the like, and a distance v1= gx from a charge surface after the first charge to an upper surface of the lower platen.

and (3) secondary filling: and (4) placing the half die into the outer die, wherein the lower surface of the half die is superposed with the material surface after the first feeding.

Referring to fig. 2, a raw material 10 such as polytetrafluoroethylene powder is charged into a space surrounded by an outer mold, a lower platen, a lower mold, a core mold, a half mold, and the like for the second time, and a distance v2= gx from a charge level after the second charge to an upper surface of the half mold.

and (3) third filling: and (4) placing the upper pressing plate into the outer die, wherein the lower surface of the upper pressing plate is superposed with the material surface after the material is fed for the second time.

Referring to fig. 3, a raw material 10 such as polytetrafluoroethylene powder is charged for the third time into a space surrounded by an outer die, a lower platen, a lower die, a core die, a half die, an upper platen, and the like, and a distance u2= u1 between the charge level after the third charge and the lower surface of the upper platen.

And (3) extending the upper die shaft neck with the smaller diameter of the upper die into the upper pressure plate, and simultaneously extending the core die into the through hole of the upper die. The lower surface of the upper die is superposed with the material surface after the third feeding. The distance from the step surface of the upper die to the upper surface of the upper platen is t2= t 1. The upper end of the upper die is connected with an upper pressure rod of the press.

2) First pressing

Referring to fig. 2, 4 and 5, the outer die, the upper platen and the lower platen are all kept stationary, the upper push rod which moves up and down drives the upper die to move downwards by a distance of t2= e (x-1)/2, meanwhile, the lower push rod which moves up and down drives the lower die and the core die to move upwards by a distance of t1= e (x-1)/2 through the ejector block and the cushion block, at this time, the lower surface of the upper die is flush with the lower surface of the upper platen, and the step surface of the upper die is in contact with the upper surface of the upper platen; the upper surface of the lower die is flush with the upper surface of the lower pressing disc, and the step surface of the lower die is in contact with the lower surface of the lower pressing disc.

3) Second pressing

Referring to fig. 5 and 6, the outer die is kept still, the upper pressure rod moves downwards to drive the upper die and the upper pressure plate to move downwards together by a distance g (x-1), meanwhile, the lower ejector rod moves upwards to drive the ejector block, the cushion block, the core die, the lower die and the lower pressure plate to move upwards together by a distance g (x-1), namely, the size required by the I-shaped part is achieved, and the raw material 10 is subjected to press forming to obtain the I-shaped part 1.

4) And demolding

And maintaining the pressure for a period of time after the second pressing is finished, and then demoulding.

Referring to fig. 7, the outer mold is kept still, the lower ejector rod moves upwards, and the upper mold, the upper pressure plate, the half mold, the lower pressure plate and the core mold are driven to move upwards relative to the outer mold, so that the i-shaped part is exposed out of the outer mold; the upper die and the upper pressure plate are taken down, then the half die is taken down, and then the I-shaped part is taken down.

Claims

1. The I-shaped part pressing forming die comprises an intermediate shaft, an upper wing plate and a lower wing plate; the outer diameter of the intermediate shaft is f, and the height of the intermediate shaft is e; the diameters of the upper wing plate and the lower wing plate are both d, and the heights of the upper wing plate and the lower wing plate are both g; d is more than f; the method is characterized in that: the molding die includes: the die comprises an outer die with the inner diameter of d, an upper pressure plate, a lower pressure plate, a half die, an upper die, a lower die, an upper pressure plate, a lower pressure plate, a half die and a lower die, wherein the outer diameter of the outer die is d, the inner diameter of the outer die is f, the upper pressure plate, the lower pressure plate and the lower pressure plate are arranged in the outer die at intervals up and down, the upper die capable of moving up and down extends into the upper pressure plate, the lower die capable of moving up and down extends into the lower pressure plate, and the outer die, the upper.

2. the press-forming die for an i-shaped part as claimed in claim 1, wherein: the I-shaped part is provided with a core hole which penetrates through the middle shaft, the upper wing plate and the lower wing plate and is communicated up and down and has a diameter of h; the forming die also comprises a core die with the diameter of h, and the upper end and the lower end of the core die respectively extend into the holes formed in the upper die and the lower die.

3. The press-forming die for an i-shaped part as claimed in claim 1, wherein: if the compression ratio of the raw material compression molding is x, x is more than 1,

4. The press-forming die for an i-shaped part as claimed in claim 3, wherein: the periphery of the lower end of the upper die is stepped, and a shaft neck with a smaller diameter at the lower end of the upper die extends into the upper pressure plate; the periphery of the upper end of the lower die is stepped, and a shaft neck with a smaller diameter at the upper end of the lower die extends into the lower pressure plate;

5. The press-forming die for an i-shaped part as claimed in claim 4, wherein: it has a plurality of support rings nested in turn; the upper end of the inner periphery of each support ring is provided with a ring groove, and the support ring with the smaller diameter is positioned in the ring groove on the support ring with the larger diameter; the lower pressure plate is positioned in the annular groove of the support ring with the smallest diameter; the journal with larger diameter at the lower end of the lower die penetrates through the support ring with the smallest diameter; the support ring with the largest diameter is arranged on the die carrier.